Notice bibliographique
- Notice
Type(s) de contenu et mode(s) de consultation : Texte noté : électronique
Titre(s) : Neurobiology of attention [Texte électronique] / edited by Laurent Itti, Geraint Rees, John K. Tsotsos
Publication : Amsterdam ; Boston : Elsevier Academic Press, cop. 2005
Description matérielle : 1 ressource dématérialisée
Note(s) : Includes bibliographical references and index
A key property of neural processing in higher mammals is the ability to focus resources
by selectively directing attention to relevant perceptions, thoughts or actions. Research
into attention has grown rapidly over the past two decades, as new techniques have
become available to study higher brain function in humans, non-human primates, and
other mammals. This is the first encyclopedic volume to summarize the latest developments
in attention research. An authoritative collection of over 100 chapters organized
into thematic sections provides both broad coverage and access to focused, up-to-date
research findings. This volume presents a state-of-the-art multidisciplinary perspective
on psychological, physiological and computational approaches to understanding the
neurobiology of attention
Autre(s) auteur(s) : Itti, Laurent (1970-....). Fonction indéterminée
Rees, Geraint. Fonction indéterminée
Tsotsos, John K.. Fonction indéterminée
Sujet(s) : Attention
Neurobiologie
Indice(s) Dewey :
153 (23e éd.) = Processus mentaux conscients et intelligence ; 612.8 (23e éd.) = Système nerveux (physiologie humaine)
Identifiants, prix et caractéristiques : ISBN 9780123757319
Identifiant de la notice : ark:/12148/cb44634307w
Notice n° :
FRBNF44634307
(notice reprise d'un réservoir extérieur)
Table des matières : Foreword /Michael A. Arbib1 ; Computational foundations for attentive processes /John
K. Tsotsos2 ; Capacity limits for spatial discrimination /Michael J. Morgan and Joshua
A. Solomon3 ; Directed visual attention and the dynamic control of information flow
/Charles H. Anderson, David C. Van Essen and Bruno A. Olshausen4 ; Selective attention
as an optimal computational strategy /Greg Billock, Christof Koch and Demetri Psaltis5
; Surprise : a shortcut for attention? /Pierre Baldi6 ; heteromodal large-scale network
for spatial attention /M. Marsel Mesulam, Dana M. Small, Rik Vandenberghe, Darren
R. Gitelman and Anna C. Nobre7 ; Parietal mechanisms of attentional control : locations,
features, and objects /John T. Serences, Taosheng Liu and Steven Yantis8 ; Visual
cortical circuits and spatial attention /John H. Reynolds9 ; Psychopharmacology of
human attention /Jennifer T. Coull10 ; Neuropharmacology of attention /Jean A. Milstein,
Jeffrey W. Dalley and Trevor W. Robbins11 ; Identifying the neu
21 ; Prefrontal selection and control of covert and overt orienting /Narcisse P. Bichot
and Jeffrey D. Schall22 ; Dissociation of selection from saccade programming /Kirk
G. Thompson23 ; Space- and object-based attention /Michael C. Mozer and Shaun P. Vecera24
; Attention and binding /Lynn C. Robertson25 ; Top-down facilitation of visual object
recognition /Moshe Bar26 ; Spatial processing of environmental representations /James
R. Brockmole and Ranxiao Frances Wang27 ; Decision and attention /Andrei Gorea and
Dov Sagi28 ; Visual attention and emotional perception /Luiz Pessoa and Leslie G.
Ungerleider29 ; difference between visual attention and awareness : a cognitive neuroscience
perspective /Victor A.F. Lamme30 ; Reaching affects saccade trajectories /Steven P.
Tipper31 ; premotor theory of attention /Laila Craighero and Giacomo Rizzolatti32
; Cross-modal consequences of human spatial attention /Jon Driver, Martin Eimer and
Emiliano Macaluso33 ; Attention and scene understanding /Vidhya Nava
44 ; neuropsychology of visual feature binding /Glyn W. Humphreys and M. Jane Riddoch45
; Visual saliency and spike timing in the ventral visual pathway /Rufin Vanrullen46
; Object recognition in cortex : neural mechanisms, and possible roles for attention
/Maximilian Riesenhuber47 ; Binding contour segments into spatially extended objects
/Pieter R. Roelfsema and Henk Spekreijse48 ; Scanpath theory, attention, and image
processing algorithms for predicting human eye fixations /Claudio M. Privitera and
Lawrence W. Stark49 ; feature similarity gain model of attention : unifying multiplicative
effect of spatial and feature-based attention /Julio C. Martinez-Trujillo and Stefan
Treue50 ; Biasing competition in human visual cortex /Sabine Kastner and Diane M.
Beck51 ; Nonsensory signals in early visual cortex /David Ress and David J. Heeger52
; Effects of attention on auditory perceptual organization /Robert P. Carlyon and
Rhodri Cusack53 ; Attention in language /Andriy Myachykov and Michael I.
62 ; Spatially-specific attentional modulation revealed by fMRI /David C. Somers and
Stephanie A. McMains63 ; neural basis of the attentional blink /Rene Marois64 ; Neurophysiological
correlates of the reflexive orienting of spatial attention /Jillian H. Fecteau, Andrew
H. Bell, Michael C. Dorris and Douglas P. Munoz65 ; Specifying the components of attention
in a visual search task /Gregory J. Zelinsky66 ; Neural evidence for object-based
attention /Kathleen M. O'Craven67 ; Location- or feature-based targeting of spatial
attention /Rik Vandenberghe68 ; Dimension-based attention in pop-out search /Joseph
Krummenacher and Hermann J. Muller69 ; Irrelevant singletons capture attention /Jan
Theeuwes70 ; Attentional modulation of apparent stimulus contrast /Julio C. Martinez-Trujillo
and Stefan Treue71 ; Attentional suppression early in the macaque visual system /G.A.
Orban, K. Pauwels, M.M. Van Hulle and W. Vanduffel72 ; Attentional modulation in the
human lateral geniculate nucleus and pulvinar
81 ; Attentional effects on motion processing /Amy A. Rezec and Karen R. Dobkins82
; ERP studies of selective attention to nonspatial features /Alice M. Proverbio and
Alberto Zani83 ; Effects of attention on figure-ground responses in the primary visual
cortex during working memory /Hans Super84 ; Electrophysiological and neuroimaging
approaches to the study of visual attention /Antigona Martinez and Steven A. Hillyard85
; timing of attentional modulation of visual processing as indexed by ERPs /Alberto
Zani and Alice M. Proverbio86 ; Selective visual attention modulates oscillatory neuronal
synchronization /Pascal Fries and Robert Desimone87 ; Putative role of oscillations
and synchrony in cortical signal processing and attention /Wolf Singer88 ; Attention
to tactile stimuli increases neural synchrony in somatosensory cortex /P.N. Steinmetz,
S.S. Hsiao, K.O. Johnson and E. Niebur89 ; Crossmodal attention in event perception
/Katsumi Watanabe and Shinsuke Shimojo90 ; FeatureGate model of vis
99 ; Memory-driven visual attention : an emergent behavior of map-seeking circuits
/David W. Arathorn100 ; role of short-term memory in visual attention /Gustavo Deco
and Edmund T. Rolls101 ; Scene segmentation through synchronization /Gunther Palm
and Andreas Knoblauch102 ; Attentive wide-field sensing for visual telepresence and
surveillance /James H. Elder, Fadi Dornaika, Bob Hou and Ronen Goldstein103 ; Neuromorphic
selective attention systems /Giacomo Indiveri104 ; role of visual attention in the
control of locomotion /M. Anthony Lewis105 ; Attention architectures for machine vision
and mobile robots /Lucas Paletta, Erich Rome and Hilary Buxton106 ; Attention for
computer graphics rendering /Hector Yee and Sumanta Pattanaik107 ; Linking attention
to learning, expectation, competition, and consciousness /Stephen Grossberg108 ; Attention-guided
recognition based on "what" and "where" representations : a behavioral model /Ilya
A. Rybak, Valentina I. Gusakova, Alexander V. Golovan, Lubov N.